Parasite Management FAQs
Why should I care about controlling parasites in my horse?
Even if you never see a worm around your horses, they can still be heavily infected. Parasites can cause extensive internal damage and can impact the immune system, coat health, nutrition, and gastrointestinal tract of your horse. They can even lead to more serious outcomes, such as colic, intestinal ruptures, and death.
How do I know which deworming protocol to use?
Gone are the days of rotational deworming, in which horses were dewormed with different products every 2-3 months. This system is no longer recommended because it was helping to develop resistance in the parasite populations, which actually makes our currently available dewormers less effective!
Henderson Equine recommends “targeted deworming”, which generally involves deworming as little as twice yearly (spring and fall), depending on each horse’s need. We can best determine the best deworming protocol for each specific horse by performing a Fecal Egg Count (FEC) at least twice yearly (before deworming). The FEC is a quantitative assessment of internal parasite eggs shed by your horse in its manure. A measured volume of manure is mixed with a flotation solution and evaluated on a specially calibrated microscope slide. This allows us to calculate the number of parasite eggs per gram of manure. With this information, we can advise you as to which dewormers are effective on your farm, which horses are high vs low shedders, which interval between dewormers is required (decreasing unnecessary chemical administration), and if parasite resistance is developing on your farm.
To collect a fecal sample: collect 1-2 balls of fresh manure in a plastic baggie. Remove as much air as possible, and seal the baggie. Keep refrigerated until you can drop it off at the clinic (or have the veterinarian pick it up during an appointment). Be prepared to tell us the last time you dewormed, and with what product. Unless we are testing for resistance, the fecal should be at least 4-6 weeks after administration of Panacur (Fenbendazole) or Strongid (Pyrantel), at least 6-8 weeks after administration of Zimectrin (Ivermectin) and at least 12 weeks after administration of Quest (Moxidectin).
What is a high, medium, or low shedder?
Horses on the same pasture or management plan may be found to consistently have very different amounts of internal parasite eggs in the manure. Approximately 20% of horses will carry 80% of the parasites on most farms! Why is this?All horses are exposed to parasites throughout their life. They develop varying levels of intestinal immunity which allows them to hold adult intestinal parasites in check. For example, the immune systems of young horses (<3yrs) and aged horses are less able to adapt to and hold intestinal parasites at low levels.
Adult healthy horses consistently carry similar worm burdens through the year, which allows us to customize parasite management plans based on the level of intestinal parasite eggs that they are shedding. Most low shedding horses will end up being treated biannually (early spring and fall), whereas moderate and high shedding horses will need additional deworming and strategic FEC assessments during times of highest parasite risk.
How do I know if my dewormer is effective?
We recommend performing an annual Fecal Egg Count Reduction assessment on at least one horse on your farm. This entails submitting a fecal sample just prior to deworming and 10-14 days after deworming (depending on the dewormer used). Comparing the Fecal Egg Count results from just prior to deworming to those two weeks after deworming provides a quantitative measure of resistance. These results will help determine if this deworming product is effective on your property and for your horse(s), and therefore whether it should or should not be used again in the future.
How else can we control parasites on farm?
In our area, the highest risk for parasite eggs on pasture is May/June through October. Consider the following list of techniques for Pasture Management:
Don't overstock your pastures (over grazed pastures increase ingestion of parasite eggs)
Regularly dispose of manure and don't spread onto pastures currently being grazed
Drag/harrow paddocks to break up manure piles and leave open for 2-3 weeks
Use feeders for hay or grain rather than feeding off the ground
Keep foals and weanlings separate from yearlings to help prevent ascarid infections
If you have other species of livestock (sheep, cattle, chickens), rotate your pastures between species to interrupt the life cycles of the parasites
Remove bot eggs from your horse’s coat to prevent them from eating them
What are the common equine internal parasites?
Small Strongyles (Cyathostomes) - Have become an important group of intestinal parasites in horses. Larvae burrow into the lining of the intestine and remain dormant or "encysted" for several months before completing their life cycle. During this time the larvae are resistant to most dewormers.
Small strongyle larvae can cause severe damage to the lining of the intestine, especially when large numbers of larvae emerge from the encysted stage all at once. Colic and diarrhea are common in heavily infected horses. These parasites also cause weight loss, slowed growth in young horses, poor coat condition and lethargy, or lack of energy. While lighter infections are not obvious, it is common for a horse's general health and performance to improve after treatment for these parasites.
The early and late larval stages (before and after they burrow into the lining of the intestine) and the adult parasites are susceptible to several dewormers. But currently there are only two types of dewormers that are effective against the encysted larval stage.
Large Strongyles - As larvae they penetrate the lining of the bowel and migrate along the blood vessels that supply the intestines. Even small numbers of these larvae can cause extensive damage. Infection with large strongyles can cause unthriftiness, weight loss, poor growth in young horses, anemia (low number of red blood cells) and colic. In most cases, colic caused by these parasites is relatively mild, but severe infections can result in loss of blood supply to a portion of the intestine, leading to severe and potentially fatal colic. These intestinal parasites have been controlled for the most part by our routine deworming protocols.
Roundworms (Ascarids) - Greatest concern for horses under 6mo of age. Healthy older horses have immunity but may still shed eggs (mostly eliminated by modern deworming programs). Adults cluster in the small intestine causing impaction, often with colic, can result in rupture and death
Most often a problem in young horses (especially foals, weanlings, and yearlings). Adult roundworms are several inches long and almost the width of a pencil; in large numbers they can cause blockage (or impaction) of the intestine. In addition, roundworm larvae migrate through the internal organs until they reach the lungs. They are then coughed up and swallowed back into the digestive tract to complete their lifecycle. Large infections can lead to damage to the liver or lungs due to migration of these larval forms.
Roundworm infection in young horses can cause coughing, poor body condition and growth, rough coat, pot belly, and colic. Colic is most likely in older foals (over 3months of age) that are heavily parasitized with roundworms when dewormed for the first time.
Tapeworms - Found in virtually all grazing animals. Contribute to colic by causing inflammation, ulceration and bowel obstruction. The tapeworm lifecycle involves a tiny mite as an intermediate host, and horses are at risk of developing tapeworm infection when they eat this mite in grass, hay or grain. Praziquantel has been demonstrated to be highly effective against tapeworms.
Pinworms - Lay eggs on the skin around the horse's anus. The irritation they cause makes the horse repeatedly rub its tail. The eggs can sometimes be found by placing a piece of scotch tape on the skin around the horse's anus and then viewing under a microscope.
Bots - Not usually a cause of major health problems, although they can damage the lining of the stomach where they attach. They may also cause small areas of ulceration in the mouth where the larvae burrow into the tissue for a time after the eggs are taken into the mouth.